Bonded-fiber fabric for producing clean-room protective clothing

a technology of protective clothing and bonded fibers, applied in protective garments, textiles and papermaking, weaving, etc., can solve the problems of high web density and the predominantly surface-parallel filament orientation unfavorable to the material's breath ability, low wearability, and relatively time-consuming

Inactive Publication Date: 2004-11-09
CARL FREUDENBERG KG
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this high web density and the predominantly surface-parallel filament orientation are unfavorable with respect to the material's breath ability.
The problematic property combination of barrier effect and breath ability of the protective-clothing material may be achieved by using particle-tight, yet water-vapor permeable, membranes.
The manufacturing method for high-density, microfilament woven fabrics as well as for composite materials of a breathable barrier membrane and a textile entails multiple steps and is, thus, relatively time consuming.
However, such materials are practically air-tight and / or water vapor-tight and have a film-like character, i.e., the wearability is minimal.
Moreover, they are only insufficiently wash fast or durable during cleaning, so that their use is limited to one-way or throw-away protective clothing.
However, this nonwoven fabric lacks softness and heat insulation properties.
As a result, the use of water jet-bonded nonwoven fabrics for the (protective) clothing industry is considered to be limited.
Until now, the sum of these properties was considered to be impossible for a nonwoven fabric having split super-fine filaments.

Method used

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Examples

Experimental program
Comparison scheme
Effect test

Embodiment Construction

nonwoven fabric is first produced having a mass per unit area of 95 g / m.sup.2 with a uniform thickness of bicomponent filaments consisting of 70% poly(ethylene terephthalate) and 30% poly(hexamethylene dipamide). The primary filaments have a titer of 1.6 dtex and contain 16 segments that are alternately made up of the polyester and polyamide. The melt-spun filaments are aerodynamically stretched, irregularly laid down on a band, and subjected to a water jet treatment in which the filaments are first prebonded. The prebonded nonwoven fabric is then treated using high-pressure water jets, the primary filaments being split into individual segments and the individual segments being further coiled [twisted]. The water-jet splitting is carried out several times from both sides of the nonwoven fabric. The resulting super microfilaments have an average titer of 0.1 dtex and are non-crimped. The nonwoven fabric is subsequently dried and emboss-calendered. The thus-produced nonwoven fabric ha...

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Abstract

A nonwoven fabric for manufacturing repeatedly re-usable clean-room protective clothing, made of super microfilaments having a titer of less the 0.2 dtex that are produced by water jet splitting multicomponent multisegment filaments having a titer of less than 2 dtex, the primary filaments being spun from the melt, aerodynamically stretched, laid to form a nonwoven fabric, and subjected to water-jet prebonding prior to splitting.

Description

DESCRIPTION OF THE TECHNICAL FIELDProtective clothing for clean rooms has the function of protecting the products produced or processed in these rooms (e.g. microelectronic parts, pharmaceuticals, optical glass fibers) from people as the "source" of the emission of interfering particles (e.g. dust particles or skin particles, bacteria).Therefore, the most important requirement of the material for manufacturing such protective clothing is the barrier effect. The protective-clothing material must hold in particles constantly released by the human body (skin particles, hair fragments, bacteria, etc.) as well as fiber fragments detached from a textile garment worn underneath in order to prevent the clean-room air and, thus, the product from being contaminated. Naturally, the material itself may also not release any fiber fragments or other components into the clean-room air.In addition to the necessary barrier effect, the protective-clothing material must have a high mechanical load-bea...

Claims

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): A41D31/00D01F8/12D01F8/14D04H3/08D04H3/14D04H3/10A41D31/02A41D13/00D04H1/42D04H1/46D04H1/54D04H3/016D04H3/018D04H3/11
CPCA41D31/0011D01F8/12D01F8/14D04H3/14D04H3/018D04H3/11D04H3/016Y10T442/69Y10T442/689Y10T442/637Y10T442/614A41D31/12D04H3/009
Inventor GROTEN, ROBERTSCHILLING, HOLGERBREMANN, ARNOLDVON DER MUHLEN, HARTWIG
Owner CARL FREUDENBERG KG
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